KR101027301B1 - Power supply system for island networks - Google Patents

Abstract

The present invention relates in particular to a power supply system for island networks on oil rigs platforms or boats. The generator 3 is provided with at least two three phase coiling systems, in which the coiling systems of the generator 3 are arranged in three dimensions according to the phase shift of the three phase AC systems 1a and 1b. Phase-shifted three-phase AC systems 1a and 1b are provided without necessarily using a current conversion current transformer. The two three phase AC systems 1a, 1b together form the primary system 1 and provide the secondary three phase AC system 2 by the transformer device 4. The present power supply system is compact and has a reduced weight, which is of particular importance for island systems.

Description

Power supply system for island networks {POWER SUPPLY SYSTEM FOR ISLAND NETWORKS}

The present invention relates to a power supply system for island networks, the power supply system having at least one generator and at least two three phase systems.

A power supply system for island networks may be understood to mean an integrated power system, ie a power system in which electrical power is generated, transmitted and finally converted back to other forms of power, the size of which is limited to space. It is not comparable with nationwide power supply. Such systems are particularly found in offshore fixed facilities and / or mobile facilities with power demand, such as, for example, ships and other sailing vessels, drilling platforms or preferably other isolated technical facilities at sea. Can be.

Typical power supply systems often have at least two electrically phase-shifted three-phase systems that supply electrical power to the drives via parallel connected converters. Phase shifts between three phase systems reduce current and voltage harmonics. Today, the shifted three-phase systems are formed by converter transformers, where the phase of the three-phase systems is shifted by an appropriate choice of vector groups.

In the case of power supply systems for island networks described above, in particular for power supply systems for island networks at sea, the heavy weight of the system components used represents a serious problem. Thus, there are several solutions today that attempt to optimize the weight of devices associated with the system, such as converter transformers and converters.

It is an object of the present invention to further improve the power supply system for island networks, having at least one generator and at least two three phase systems, with respect to the problems described above.

According to the invention, a generator of a power supply system having at least two three phase winding systems, each associated with three phase systems, the voltages derived from the winding systems, and the voltages of the two three phase systems are electrically phased with respect to each other. The object is achieved by winding systems of the generator which are spatially arranged to be partly.

According to the invention, the converter transformers for forming two three-phase systems become totally, or at least mostly unnecessary, which results in considerable advantages in terms of weight and cost and also saves space.

The electrical phase shift between three phase systems is advantageously 30 °. This phase shift is particularly advantageous for reducing current and voltage harmonics in an additional three phase system that can be connected downstream and supplied by parallel-connected converters.

The winding systems of the generator are preferably fitted in slots so that a minimum short circuit current is set. In this way, any unwanted power supply is significantly reduced by the magnetic coupling of the winding system of the generator on the stator side.

It is appropriate for the load to be connected to one or more of the three phase systems. Especially if more than two or a plurality of two three-phase systems are provided, the loss of redundancy in the system can thus be avoided.

The power supply system advantageously has at least one primary system and at least one secondary three phase system, wherein the at least two three phase systems form a primary system coupled to at least one of the secondary three phase systems. Thus, it is possible for different devices designed for different voltage regions to be used for switching and / or conversion purposes in the primary and secondary systems. In this case, preferably, the voltage ranges selected are each determined by the loads that need to be powered. Overall, this has a cost advantage, since more advantageous devices can be used for lower voltage regions.

The secondary three phase system is advantageously coupled to the generator. This makes it possible to supply power to the loads on the secondary or primary system even if a failure occurs in each other system at the time of power generation.

The coupling between the at least one primary system and the at least one secondary three phase system is preferably designed such that the power generated by the generator coupled to the secondary three phase system can be supplied to the primary system. Thus, it is also possible for a generator connected to the secondary system to power the loads connected to the primary system in an emergency.

Exemplary embodiments and further advantages of the present invention are described with reference to the accompanying drawings.

1 shows an exemplary diagram of a power supply system according to the present invention for island networks.

2 shows an exemplary diagram of a power supply system according to the invention with a load on the primary system.

3 shows an example of a transformer arrangement for combining primary and secondary systems.

4 shows an example of a transformer arrangement for combining primary and secondary systems.

1 shows an exemplary diagram of a power supply system according to the present invention for island networks. In this case, the generator 3 connected to the two three-phase systems 1a and 1b generates electric power, for example by combustion of diesel fuel. In this case, the generator 3 has two three phase winding systems associated with the respective three phase systems 1a, 1b, the voltages being derived from the winding systems, the winding systems being the two three phase systems 1a. , 1b) are spatially arranged in the generator 3 so that the voltages are electrically phase-shifted with respect to each other. Thus, it is possible to obviate the converter transformers for generating two three-phase systems as a whole or at least mostly.

Two three-phase systems 1a, 1b together form a primary system 1. The three phase systems 1a, 1b are preferably electrically 30 ° out of phase and are supplied by the at least one transformer device 4 to the secondary three phase system 2. This reduces the current and voltage harmonics in the secondary system 2. In the exemplary embodiment shown in FIG. 1, the transformer device 4 comprises two parallel-connected transformers.

Loads (not shown), such as motors or other drive devices, may be connected to both the primary system 1 and the secondary system 2. If the main generator 3 is not running, the generator 7 connected to the secondary system 2 can function as an emergency generator and supply power to the secondary system 2 and the primary system 1. Can be.

2 shows another exemplary diagram of a power supply system according to the invention, wherein the loads 6a, 6b are coupled to the primary system 1. The generator 3 is preferably connected to two three-phase systems 1a, 1b which are 30 ° phase-shifted with respect to each other. Two three-phase systems 1a, 1b form a primary system 1. The motors 6a and 6b are supplied via two converters 5a and 5b.

The primary system 1 is coupled to the secondary three phase system 2 by two transformers 4. Additional loads that may be connected to the primary system 1 in addition to the motors 6a, 6b are not shown in the figure. Additional loads (not shown in detail in the figure) and at least one generator (not shown in detail in detail) are connected to the secondary three-phase system 2 via the connections 8a, 8b, 8c.

In the exemplary embodiment shown in FIG. 2, the design of the generator 3 allows the load to be connected to the three phase systems 1a, 1b, in particular when loads suitable for oil drilling such as motors 6a, 6b are used. It ensures that it is evenly distributed on the side of the stator windings. In this case, operation at the highest possible voltage level is appropriate in the primary system 1.

The secondary three phase system 2 is coupled to the primary system 1 symmetrically by transformers 4. In this case, for example, two transformers 4 are connected in a delta manner to the primary side and in a delta and star manner to the secondary side.

3 and 4 show further refinements to the transformer arrangement 4 for coupling the primary system 1 to the secondary three-phase system 2. The respective winding systems of the transformer device 4 are in this case associated with two primary three phase systems 1a, 1b and a secondary three phase system 2 using connections 8a, 8b, 8c. The transformers 4 shown in FIGS. 3 and 4 may be in the form of an integral transformer, in other words the transformers in each case, as shown schematically in the figure, with connections 8a, 8b. , Only one winding system on the secondary side for each of 8c).

In the transformer device 4 shown in FIG. 3, the winding systems are star-connected to the terminals of the secondary three-phase system 2.

In the transformer device 4 shown in FIG. 4, the winding systems are delta-connected on the secondary three-phase systems 2 side.

1 and 2 illustrate basic power supply systems in accordance with the present invention for island networks. At least two of said power supply systems may be coupled to each other. It is also possible to combine at least one power supply system according to the invention to power supply systems for an already existing island network.

In addition, a power supply system comprising two or more basic power supply systems (shown in FIGS. 1 and 2), in addition to one main generator 3, in order to cover a correspondingly high power requirement, Generators 3 may also be designed to be provided. The power supply system can also be designed with two or more primary systems 1 that supply one or more secondary systems 2. The power supply system may be characterized in that the primary system 1 supplies power to one or more secondary three phase systems 2, and / or the secondary three phase system 2 is powered by one or more primary systems 1. It can be designed to be powered.

The power supply system according to the invention is less expensive overall at least for the same power, flexibility and capacity, has a significantly smaller weight compared to existing systems, and also has two phase-shifts. Due to the fact that the power converters required to form the three-phase systems 1a, 1b are eliminated, they require very little space compared to existing systems.

Claims (7)

As a power supply system for island networks, The power supply system comprises at least one generator 3 and at least two three phase systems 1a, 1b, The generator 3 has at least two three phase winding systems associated with the respective three phase systems 1a, 1b, voltages are derived from the winding systems, and the winding systems of the generator 3 The voltages of the three three-phase systems 1a, 1b are spatially arranged such that they are electrically phase-shifted with respect to each other, The power supply system comprises at least one primary system 1 and at least one secondary three phase system 2, wherein the at least two three phase systems 1a, 1b are connected to the primary system 1. And the primary system 1 is coupled to at least one of the at least one secondary three phase system 2, Loads may be connected to the at least one primary system 1 or the at least one secondary three phase system 2, Power supply system. The electrical phase shift between the three phase systems 1a, 1b is 30 °. Power supply system. 3. The winding system of claim 1 or 2, wherein the winding systems of the generator 3 are fitted in slots such that a minimum short circuit current is set. Power supply system. 3. The load (6a, 6b) of claim 1, wherein the load (6a, 6b) is connected to one or more of the three-phase systems (1a, 1b). Power supply system. delete The system according to claim 1, wherein the secondary three phase system 2 is coupled to an additional generator 7. Power supply system. The method according to claim 6, wherein the coupling between at least one primary system (1) and at least one secondary three phase system (2) is by means of the further generator (7) coupled to the secondary three phase system (2). Designed so that the generated power can be supplied to the primary system 1, Power supply system.

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